Automated teller device having accessibility configurations

ABSTRACT

An automated teller device having accessibility configurations is disclosed. in one aspect, in response to a setting to enable the accessibility keypad mode, the automated teller device operates a session in an accessibility keypad mode. In the accessibility keypad mode a second set of actions is mapped to the keys of the keypad. The second set of actions is different than a first set of actions mapped to the keys of the keypad in a standard keypad mode. The second set of actions comprises one or more of actions for navigation and input selection of the graphical user interface, actions for control of audio being reproduced, actions for control of volume of the audio being reproduced, or actions for control of a rate of reproduction of the audio being reproduced.

RELATED APPLICATION DATA

The present application is a continuation of U.S. patent applicationSer. No. 16/392,905, filed Apr. 24, 2019, the content of which isincorporated herein by reference.

TECHNICAL FIELD

The present disclosure is related to an automated teller device, andmore particularly, to an automated teller device having accessibilityconfigurations.

BACKGROUND

An automated teller device may enable a user to perform a variety ofactions related to a user account through a user interface. The userinterface may comprise of a keypad comprising a plurality of keys, aspeaker, and a display providing a graphic user interface. The provisionof accessibility features is an important feature of automated tellerdevices. However, the accessibility features of existing automatedteller devices are limited in terms of customization, are difficult touse, and are difficult to implement in an effective user interface.Accordingly, there remains a need for an improved automated tellerdevice having accessibility configurations.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of an automated teller device inaccordance with example embodiments of the present disclosure.

FIG. 2 is a block diagram showing some internal components of theautomated teller device of FIG. 1.

FIG. 3 is a schematic diagram of a network environment in which exampleembodiments of the present disclosure may be implemented.

FIG. 4 is a flowchart of a method of operating an automated tellerdevice in accordance with an example embodiment of the presentdisclosure.

FIG. 5 is a flowchart of a method of operating an automated tellerdevice in accordance with another example embodiment of the presentdisclosure.

FIG. 6 is an example of a keypad for an automated teller device inaccordance with example embodiments of the present disclosure.

FIG. 7 is an example welcome interface in accordance with exampleembodiments of the present disclosure.

FIG. 8 is an example authentication interface in accordance with exampleembodiments of the present disclosure.

FIG. 9 is an example start interface in accordance with exampleembodiments of the present disclosure.

FIG. 10 is an example accessibility options interface in accordance withexample embodiments of the present disclosure.

FIG. 11 is an example brightness & font size interface in accordancewith an example embodiment of the present disclosure.

FIG. 12A and 12B are examples of a screen options interface inaccordance with an example embodiment of the present disclosure.

FIG. 13 is a keypad navigation interface in accordance with an exampleembodiment of the present disclosure.

FIG. 14 is an example audio language select interface in accordance withan example embodiment of the present disclosure.

FIG. 15 is an example keypad navigation for audio interface inaccordance with an example embodiment of the present disclosure.

FIG. 16 is an example saved preferences for audio interface inaccordance with an example embodiment of the present disclosure.

FIGS. 17A and 17B are examples of a screen options for audio interfacein accordance with an example embodiment of the present disclosure.

FIG. 18 is an example blank screen in accordance with an exampleembodiment of the present disclosure.

FIG. 19 is an example announce navigation and control instructionsinterface in accordance with an example embodiment of the presentdisclosure.

FIG. 20 is an example announce new features interface in accordance withan example embodiment of the present disclosure.

FIG. 21 is an example insert card interface in accordance with anexample embodiment of the present disclosure.

FIG. 22 is an example save preferences interface in accordance with anexample embodiment of the present disclosure.

DESCRIPTION OF EXAMPLE EMBODIMENTS

The present disclosure is made with reference to the accompanyingdrawings, in which embodiments are shown. However, many differentembodiments may be used, and thus the description should not beconstrued as limited to the embodiments set forth herein. Rather, theseembodiments are provided so that this disclosure will be thorough andcomplete. Wherever possible, the same reference numbers are used in thedrawings and the following description to refer to the same elements,and prime notation is used to indicate similar elements, operations orsteps in alternative embodiments. Separate boxes or illustratedseparation of functional elements of illustrated systems and devicesdoes not necessarily require physical separation of such functions, ascommunication between such elements may occur by way of messaging,function calls, shared memory space, and so on, without any suchphysical separation. As such, functions need not be implemented inphysically or logically separated platforms, although they areillustrated separately for ease of explanation herein. Different devicesmay have different designs, such that although some devices implementsome functions in fixed function hardware, other devices may implementsuch functions in a programmable processor with code obtained from amachine-readable medium. Lastly, elements referred to in the singularmay be plural and vice versa, except where indicated otherwise eitherexplicitly or inherently by context.

The present disclosure provides an automated teller device havingaccessibility configurations and a method of operating an automatedteller device having accessibility configurations. The automated tellerdevice may be an automated teller machine (ATM) that provides agraphical user interface (GUI) providing a sequence of interfaces toenable a user to perform an action related to the user's account at aservice provider such as a financial institution. The ATM may be part ofan ATM network. The automated teller device may communicate with abackend server that manages the user account, including storedaccessibility options, to automatically apply previously establishedaccessibility options on the automated teller device currently beingused. Interactions with an automated teller device can be challengingand prone to errors for certain users, particularly seniors, users withphysical and/or mental disabilities, users with language comprehensionchallenges and users who are uncomfortable with technology. Userchallenges and preferences may vary widely (e.g., type ofneed/preference, type of accommodation/accessibility feature desired,level of accommodation/accessibility feature desired, etc.), so theparticular accessibility options suited for a particular user maysimilarly vary widely. The automated teller device and method of thepresent disclosure provide accessibility features that accommodate awide range of user challenges and preferences, provide accessibilityoptions for the accessibility features that allow a high level ofcustomization to accommodate user challenges and preferences, providethe ability to apply customized accessibility features to any automatedteller device connected to the ATM network, and provide accessibilityfeatures which are relatively easy to setup and use.

Moreover, the accessibility features of the present disclosure may beused with a shared GUI that allows a common set of transaction workflowto be used regardless of whether accessibility features are enabled, orthe particular accessibility options that are enabled. The presentdisclosure is believed to provide an improved user experience that ismore intuitive than conventional user interfaces of automated tellerdevices, and that may allow users to interact with the automated tellerdevice in an easier fashion, particular those with physical or cognitivedisabilities. In example studies comparing the user interface of thepresent disclosed, it was found that users' perception of ease of use,enjoyment, speed and customization were higher compared to theconventional user interfaces of automated teller devices.

In accordance with one aspect of the present disclosure, there isprovided a method of operating an automated teller device, the automatedteller device comprising a processor, a speaker coupled to theprocessor, a display providing a graphical user interface coupled to theprocessor, and a keypad coupled to the processor, wherein the keypadcomprises a plurality of keys. The method comprises: in response to asetting to disable an accessibility keypad mode, operating a session ina standard keypad mode in which a first set of actions is mapped to thekeys of the keypad; and in response to a setting to enable theaccessibility keypad mode, operating the session in the accessibilitykeypad mode in which a second set of actions is mapped to the keys ofthe keypad, wherein the second set of actions is different from thefirst set of actions, wherein the second set of actions comprises one ormore of actions for navigation and input selection of the graphical userinterface, actions for control of audio being reproduced, actions forcontrol of volume of the audio being reproduced, or actions for controlof a rate of reproduction of the audio being reproduced.

In accordance with another aspect of the present disclosure, there isprovided an automated teller device, comprising a processor, a speakercoupled to the processor, a display providing a graphical user interfacecoupled to the processor, and a keypad coupled to the processor, whereinthe keypad comprises a plurality of keys. The processor is configuredto: in response to a setting to disable an accessibility keypad mode,operate the session in a standard keypad mode in which a first set ofactions is mapped to the keys of the keypad; and in response to asetting to enable the accessibility keypad mode, operate the session inthe accessibility keypad mode in which a second set of actions is mappedto the keys of the keypad, wherein the second set of actions isdifferent from the first set of actions, wherein the second set ofactions comprises one or more of actions for navigation and inputselection of the graphical user interface, actions for control of audiobeing reproduced, actions for control of volume of the audio beingreproduced, or actions for control of a rate of reproduction of theaudio being reproduced.

In some examples of the above aspects and examples, the actions fornavigation and input selection of the graphical user interface comprisescroll up, scroll down, scroll left, scroll right and select.

In some examples of the above aspects and examples, the actions forcontrol of audio being reproduced comprises one or more of repeat audio,skip audio, or pause audio reproduction.

In some examples of the above aspects and examples, the actions forcontrol of volume of the audio being reproduced increase volume of theaudio being reproduced and decrease volume of the audio beingreproduced.

In some examples of the above aspects and examples, the actions forcontrol of a rate of reproduction of the audio being reproducedcomprises one or more of increase speed of audio reproduction ordecrease speed of audio reproduction.

In some examples of the above aspects and examples, in accessibilitykeypad mode, the second set of actions comprises actions for navigationand input selection of the graphical user interface, actions for controlof audio being reproduced, actions for control of volume of the audiobeing reproduced, and actions for control of a rate of reproduction ofthe audio being reproduced.

In some examples of the above aspects and examples, in accessibilitykeypad mode, the second set of actions comprise ending the session,returning to a previous page in the session, selecting an optionselected with an onscreen indicator, and reproducing audio instructionsfor the accessibility keypad mode.

In some examples of the above aspects and examples, in accessibilitykeypad mode, the second set of actions comprises actions for navigationand input selection of the graphical user interface, actions for controlof audio being reproduced, actions for control of volume of the audiobeing reproduced, actions for control of a rate of reproduction of theaudio being reproduced, and ending the session, returning to a previouspage in the session, selecting an option selected with an onscreenindicator, and reproducing audio instructions for the accessibilitykeypad mode.

In some examples of the above aspects and examples, the keypad comprisesan automated teller device keypad comprising a first array of keys of afirst type and a second array of keys of a second type, wherein the keysof the first array are arranged in 4×3 array of rows and columns,wherein the keys of the second array are arranged in 4×1 array of rowsand columns, wherein the actions for navigation and input selection ofthe graphical user interface, actions for control of audio beingreproduced, actions for control of volume of the audio being reproduced,actions for control of a rate of reproduction of the audio beingreproduced, and ending a session, returning to a previous page in thesession are mapped to keys of the first array; wherein the actions ofthe ending the session, returning to a previous page in the session,selecting an option selected with an onscreen indicator, and reproducingaudio instructions for the accessibility keypad mode are mapped to keysof the second array.

In some examples of the above aspects and examples, the actions of thesecond set of actions of the accessibility keypad mode are dependent oncontext.

In some examples of the above aspects and examples, the context is acurrent transaction or current screen of the session.

In some examples of the above aspects and examples, the method comprisesand the processor is configured to: extract data from the authenticationdevice in communication with the automated teller device; send a signalincluding the data extracted from the authentication device to a servervia a communication interface of the automated teller device; and inresponse to receipt of a response signal from the server via thecommunication interface of the automated teller device, the responsesignal providing information identifying an account associated with theauthentication device and accessibility options for the accountincluding a setting specifying whether the accessibility keypad mode isenabled or disabled, automatically apply the accessibility options onthe automated teller device.

In some examples of the above aspects and examples, the accessibilityoptions comprise an audio reproduction option for enabling reproductionof audio associated with screens of the graphical user interface and theaccessibility keypad mode option for enabling the accessibility keypadmode.

In some examples of the above aspects and examples, the accessibilityoptions further comprise a display option for the graphical userinterface.

In some examples of the above aspects and examples, the display optionfor the graphical user interface is selected from the group consistingof a blank screen, screens comprising text and a background image,screens comprising white text and a black background, screens comprisingblack text and a white background, or screens comprising yellow text anda black background.

In some examples of the above aspects and examples, the accessibilityoptions further comprise a brightness option for the graphical userinterface and a text size option for the graphical user interface.

In some examples of the above aspects and examples, the displaycomprises a touchscreen, wherein the graphical user interface displayedon the touchscreen is configured to receive navigation and selectioninput from both the touchscreen and the keypad.

In some examples of the above aspects and examples, the graphical userinterface comprises a plurality of interconnected screens, wherein eachof the interconnected screens comprises an accessibility button forinvoking an accessibility options interface for configuring theaccessibility options.

In some examples of the above aspects and examples, the accessibilityoption is provided by an onscreen button located in a horizontal toolbarlocated at a bottom of each of the interconnected screens of thegraphical user interface.

In some examples of the above aspects and examples, the method comprisesand the processor is configured to: in the standard keypad mode, performan action in the first set of actions in response to input received by arespective key of the keypad; and in the accessibility keypad mode,perform an action in the second set of actions in response to inputreceived by a respective key of the keypad.

In accordance with a further aspect of the present disclosure, there isprovided a method of operating an automated teller device, the automatedteller device comprising a processor, a speaker coupled to theprocessor, a display providing a graphical user interface coupled to theprocessor, and a keypad coupled to the processor, wherein the keypadcomprises a plurality of keys. The method comprises: extracting datafrom an authentication device in communication with the automated tellerdevice; sending a signal including the data extracted from theauthentication device to a server via the communication interface; andin response to receipt of a response signal from the server via thecommunication interface of the automated teller device, the responsesignal providing information identifying an account associated with theauthentication device and accessibility options for the account,automatically applying the accessibility options on the automated tellerdevice, wherein the accessibility options comprise one or more of anaudio reproduction option for enabling reproduction of audio associatedwith screens of the graphical user interface, an accessibility keypadmode option for enabling the accessibility keypad mode, a display optionfor the graphical user interface, a brightness option for the graphicaluser interface or a text size option for the graphical user interface.

In accordance with yet a further aspect of the present disclosure, thereis provided an automated teller device, the automated teller devicecomprising a processor, a speaker coupled to the processor, a displayproviding a graphical user interface coupled to the processor, and akeypad coupled to the processor, wherein the keypad comprises aplurality of keys. The processor is configured to: extract data from anauthentication device in communication with the automated teller device;send a signal including the data extracted from the authenticationdevice to a server via the communication interface; and in response toreceipt of a response signal from the server via the communicationinterface of the automated teller device, the response signal providinginformation identifying an account associated with the authenticationdevice and accessibility options for the account, automatically applythe accessibility options on the automated teller device, wherein theaccessibility options comprise one or more of an audio reproductionoption for enabling reproduction of audio associated with screens of thegraphical user interface, an accessibility keypad mode option forenabling the accessibility keypad mode, a display option for thegraphical user interface, a brightness option for the graphical userinterface or a text size option for the graphical user interface.

In accordance with further aspects of the present disclosure, there isprovided an apparatus comprising at least one processor, wherein theexecutable instructions, when executed by the at least one processor,cause the processor to perform at least parts of the methods describedherein.

In accordance with yet further aspects of the present disclosure, thereis provided a non-transitory machine readable medium having tangiblystored thereon executable instructions for execution by at least oneprocessor, wherein the executable instructions, when executed by the atleast one processor, cause the processor to perform at least parts ofthe methods described herein.

FIGS. 1 and 2 show an example automated teller device 100 that may beused to implement example embodiments of the present disclosure. Theautomated teller device 100 includes one or more input and/or output(I/O) devices that facilitate interaction between the user and theautomated teller device. As shown, a display 102 is provided which maybe a touchscreen or non-touchscreen display depending on the embodiment.Where the display 102 is a touchscreen display, the display 102 mayserve as both an input device as well as an output device. A graphicaluser interface is displayed on the display 102 to enable any suitabletextual and/or graphical output/input. The GUI comprises a plurality ofinterconnected screens each of which comprises an accessibility buttonfor invoking an accessibility options interface for configuring (e.g.,setting or changing) accessibility options.

The example automated teller device 100 includes a keypad 104 comprisinga plurality of keys which may be used to provide input to the automatedteller device 100. The keypad 104 may be used, for example, to enternumerical/non-numerical inputs which may be used to input anauthentication code (e.g., personal identification number (PIN)), inputnumerical values, confirm/cancel a particular action, and/or navigatethrough the GUI provided by the automated teller device 100. The keypad104 may include alphanumeric keys, multi-function and/or keys forspecific input, (e.g., “Accept”, “Cancel”). The keypad 104 may beequipped with braille (or other forms of tactile indicators) to improveaccessibility for visually impaired users.

The automated teller device 100 may include audio input/output devices,such as a microphone (not shown) for receiving audio user input and, asshown, one or more speakers 108 for providing audio output. Otherexamples of I/O devices may include, for example, a mouse, an opticalreader, and/or a stylus (or other input device(s)) through which a userof the automated teller device 100 may provide input.

An access card may be received, through a card slot 110, into theautomated teller device 100 to be read by a card reader 112. In someexamples, the card reader 112 reads a magnetic strip on the back of theaccess card to extract information stored thereon. In other examples,such information may be stored in an integrated circuit (IC) chipembedded within the access card in addition to, or instead of, themagnetic strip, which may be read by the card reader 112. In otherexamples, an authentication device may be in communication with theautomated teller device 100 and may send a signal including data. Forexample, the card slot 110 may be a near field communication (NFC)terminal or NFC enabled, wherein a user can send information via theauthentication device (for example via a NFC enabled mobile device) tothe NFC capable card slot 110. The data received by the card reader 112,or card slot 110 (whether through a card or authentication device) maybe used to perform functions such as authentication (for example cardauthentication, card holder validation, user account validation) and/oraccount information retrieval.

User interactions with the automated teller device 100 may includeinsertion of physical input (e.g., cash and/or check, or other physicalrepresentations of data) through one or more input slots 114. Theautomated teller device 100 may incorporate sensors (e.g., an opticalscanner 122) and/or a digital image processor to process the receivedphysical input. Physical output, such as cash, may be extracted from thevault 116 inside the automated teller device 100 and dispensed to theuser through an output slot 118. Another output slot 119 may be used toprovide a physical record, such as a paper receipt, of the user'sinteractions with the automated teller device 100 during a session. Asession on the automated teller device 100 may be defined to include theinputs, outputs provided on the automated teller device 100 from thestart of user interaction with the automated teller device 100 (e.g.,starting with insertion of an access card into the card slot 110) andending when the user chooses to end interactions with the automatedteller device 100 (e.g., user provides input to the automated tellerdevice 100 indicating that all desired actions have completed and/oruser logs out). The physical record may be generated by a printer 120inside the automated teller device 100. Additionally or alternatively, arecord of the session may be emailed to the user. The automated tellerdevice 100 may include a camera 124, which may be used to record video(e.g., for security purposes) and/or to facilitate interaction betweenthe user and a local or remote agent.

Internally, the automated teller device 100 includes a processing unit126, which may comprise one or more processors, for controlling overalloperation of the automated teller device 100. The processing unit 126may be operably coupled to one or more of random access memory (RAM)128, read-only memory (ROM) 130, memory 132, and input/output (I/O)devices such as those described above. Machine-executable instructionsmay be stored within memory 132 and/or other storage to provideinstructions to the processing unit 126 for enabling the automatedteller device 100 to perform various functions. For example, the memory132 may store instructions for implementing an operating system 134, andone or more application programs 136. The memory 132 may also store data138 locally. Additionally or alternatively, some or all of themachine-executable instructions for the automated teller device 100 maybe embodied in hardware or firmware (not shown). In this example, theautomated teller device 100 further includes a communication interface140, for wired and/or wireless communication with other network devices(see FIG. 3, for example).

In examples in which the authentication device sends data to theautomated teller device 100, the processing unit 126 may be configuredto initiate a session in response to authentication of an authenticationdevice. For example, in response to determination that an access card isauthenticated, the processing unit 126 may initiate a session whichincludes displaying an appropriate screen of the GUI on display 102 andplaying sounds through speaker 108.

FIG. 3 shows an example network 300 in which the example automatedteller device 100 may be implemented. In this example, a plurality ofautomated teller devices 100 a-100 n may be connected through acommunication network 304, to a first-party server 306 via any suitablecommunications links, such as network links, wireless links, hard-wiredlinks, and the like. The communication interface of the automated tellerdevices 100 a-100 n may be an instance of the automated teller device100 of FIG. 1, or other suitable automated teller device. The automatedteller devices 100 a-100 n may be the same or different from each other.

The automated teller device 100 may include one or more communicationinterfaces for wired or wireless communication with communicationnetwork 304. The communication interfaces may include wired links (e.g.,Ethernet cable) and/or wireless links (e.g., one or more radio frequencylinks) for intra-network and/or inter-network communications. Thecommunication interfaces may provide wireless communication via one ormore transmitters or transmitting antennas, one or more receivers orreceiving antennas, and various signal processing hardware and software,for example. The communication interfaces may be configured for sendingand receiving data to the first-party server 306 or to other userdevices, access points, reception points, transmission points, networknodes, gateways or relays (not shown) in the communication network 304.

The communication network 304 may include any one or more suitablecomputer networks including, for example, the Internet, an intranet, awide-area network (WAN), a wireless WAN (WWAN), a local-area network(LAN), a wireless LAN (WLAN), a wireless network, a digital subscriberline (DSL) network, a frame relay network, an asynchronous transfer modenetwork, a virtual private network (VPN), a public-switched telephonenetwork (PSTN), or a public-land mobile network (PLMN), or anycombination of any of the same. Network communications may befacilitated through the use of any suitable communication such asTCP/IP, Ethernet, FTP, HTTP, HTTPS, and the like. The communicationnetwork 304 may be, or comprise, the interbank network (also referred toas the ATM consortium or ATM network).

The first-party server 306 may be a backend server associated with thesame service provider as the automated teller devices 100 a-100 n. Thefirst-party server 306 may be operable to communicate signals andexchange data with each of the plurality of automated teller devices 100a-100 n. The first-party server 306 in this example network 300 is alsocoupled to an external database 308 that may store data (e.g., useraccount information) accessible by the first-party server 306. The datastored by the database 308 comprises user account information andprovisioning data for data transfers in corresponding records. Thedatabase 308 is located externally to and remote from the automateddevices 100. The first-party server 306 in this example network 300 isalso coupled to a third-party server 310, which may provide third partyservices, such as authentication services, or may be associated withanother service provider (e.g., another financial institution). Thefirst-party server 306 may be coupled to the external database 308and/or the third-party server 310 via one or more networks (not shown).It is to be appreciated that although one instance each of thefirst-party server 306, external database 308, third-party server 310and communication network 304 are shown, any of the components in FIG. 3may be present in any number.

The first-party server 306 comprises a controller comprising at leastone processor which controls the overall operation of the first-partyserver 306. The processor is coupled to a plurality of components via acommunication bus which provides a communication path between thecomponents and the processor. The processor is coupled to acommunication module that communicates with corresponding communicationmodules of automated devices 100 and third-party server 310 by sendingand receiving corresponding signals. The first-party server 306 maycomprise, or communicate with, a data transfer server which generatesdata transfer instructions via an instruction generation module, sendsand/or receives data transfer instructions between various endpoints(e.g., automated devices 100, first-party server 306, third-party server310, etc.) and which processes data transfer instructions via aninstruction processing module.

The implementation of the methods described herein include a sequence ofinterfaces, also referred to as user interfaces or graphical userinterfaces (GUIs), to be provided by the automated device, as discussedbelow. One or more interfaces in the interface sequence may provide oneor more selectable options as discussed below, each selectable optionbeing selectable, for example by interacting with a touchscreen and/or akeypad 104 of the automated teller device 100. The selection options areprovided in onscreen buttons or other user interface elements. Theselectable options, when selected via corresponding interaction, causedifferent interfaces to be displayed which may, in some instances,involve communications between the automated teller device 100 and thefirst-party server 306 to obtain information to dynamically populateinterfaces in the interface sequence. The methods described herein maybe implemented during a session with the automated teller device 100,for example as a portion of the session. The methods described hereinmay be implemented together to provide a sequence of interfaces.

Automatic Application of Pre-Established Accessibility Options

FIG. 4 is a flowchart of an example method 400 for operating anautomated teller device 100 in accordance with an example embodiment ofthe present disclosure. The method 400 may be performed by the automatedteller device 100, for example, by the processing unit 126. The method400 may be implemented during a session with the automated tellerdevice, for example, as a user interface sequence. The method 400 may beimplemented together with other methods discussed herein to provide asequence of interfaces to set and/or apply accessibility settings.

The session may be initiated in response to communication of theautomated teller device 100 with an authentication device, either beforeor after authentication of the authentication device. For example, thesession may be initiated in response to authentication of anauthentication device. The implementation of the method 400 may includea sequence of GUI screens be provided by the automated teller device100, as discussed below. The GUI screens provide one or more selectableoptions, each selectable option being selectable by interacting with atouchscreen (e.g., display 102) and/or a keypad 104 of the automatedteller device 100. The method 400 may include communication between theautomated teller device 100, first-party server 306 and possiblythird-party server 310, and use data received from the first-partyserver 306 or possibly third-party server 310 to dynamically configuredthe interface of the automated teller device and the functionality ofone or more of the keypad 104, display 102, and speakers 108.

At operation 402, an authentication device is communicatively coupled tothe automated teller device 100. The authentication device may be anaccess card received by the automated teller device 100 via the cardslot 118 or a smart tag, smartcard, smartphone or other device thatcommunicates with the automated teller device 100 via NFC or othersuitable communication protocol.

At operation 404, the authentication device is processed by theautomated teller device 100 to extract information stored by theauthentication device. The information extracted from the authenticationdevice may include information used to identify whether theauthentication device is associated with an account that is managed bythe first-party service provider (e.g., financial institution) that ownsor operates the automated teller device 100 or a third-party serviceprovider.

At operation 406, the automated teller device 100 sends the informationextracted from the authentication device to a backend server, forexample, the first-party server 306 owned or operated by the first-partyservice provider that owns or operates the automated teller device 100,to identify and/or retrieve information about one or more accountsassociated with a user to whom the authentication device is assigned.When the first-party server 306 determines that the authenticationdevice is associated with an account that is managed by a third-partyservice provider, the first-party server 306 may further communicatewith a service provider network to obtain account information from thethird-party service provider.

The first-party server 306 sends to the automated teller device 100 asignal providing information about the account(s) associated with theauthentication device identifying the account(s) associated with theauthentication device. The information provided by the first-partyserver 306 may include information indicating whether the authenticationdevice is associated with an account that is managed by another serviceprovider, for example. The information provided by the first-partyserver 306 includes any accessibility options for the user account thatare stored by the first-party server 306 or possible provided by athird-party server 310 in response to a determination that the accountis managed by third-party service provider. In this way, accessibilityoptions for the account may be obtained at any automated teller device100 connected to the communication network 304. This obviates the needto re-enter accessibility options each time an automated teller device100 is used.

The accessibility options may comprise a setting specifying whether theaccessibility options are enabled or disabled and/or what accessibilityoptions are enabled or disabled. The accessibility options may comprisea setting specifying whether the accessibility keypad mode is enabled ordisabled in some examples. The accessibility options may be linked,combined and/or dependent on each other in some examples. For example,when audio support is enabled, an option for a blank screen may beprovided as a screen option.

The accessibility options may comprise one or more of an audioreproduction option for enabling reproduction of audio associated withthe screens of the graphical user interface, an accessibility keypadmode option for enabling the accessibility keypad mode, a display optionfor the graphical user interface, a brightness option for the graphicaluser interface or a text size option for the graphical user interface insome examples.

In some examples, the accessibility options comprise an audioreproduction option for enabling reproduction of audio associated withthe screens of the graphical user interface and the accessibility keypadmode option for enabling the accessibility keypad mode.

In some examples, the accessibility options further comprise a displayoption for the graphical user interface. In some examples, the displayoption for the graphical user interface is selected from the groupconsisting of a blank screen, screens comprising text and a backgroundimage, screens comprising white text and a black background, screenscomprising black text and a white background, or screens comprisingyellow text and a black background. In some examples, the accessibilityoptions further comprise a brightness option for the graphical userinterface and a text size option for the graphical user interface.

In some examples in which the display comprises a touchscreen and theGUI of the automated teller device 100 is displayed on the touchscreen,the GUI is configured to receive navigation and selection input fromboth the touchscreen and the keypad 104.

FIG. 6 illustrates an example of a standard ATM keypad 600 that may beused for the keypad 104. The keypad 600 comprises a first array 602 ofkeys 604 of a first type and a second array 612 of keys 614 of a secondtype (only one of the keys 604 and 614 are labeled in FIG. 6 for ease ofexplanation). The keys 614 are generally rectangular whereas the keys614 are generally square in the shown example, with both types of keysbeing the same height and differing only in width in the shown example.The arrays 602 and 612 are generally rectilinear in the shown example.The keys 604 of the first array 602 are arranged in 4×3 array of rowsand columns. The keys 614 of the second array 612 are arranged in 4×1array of rows and columns. The position of each key in the first array602 is denoted by a position [i, j], wherein i is the row number fromtop to bottom of the keypad 600, and j is the column number from theleft to right of the first array 602 of the keypad 600. Similarly, theposition of each key in the second array 612 is denoted by a position[i, j], wherein i is the row number from top to bottom of the secondarray 612 of the keypad 600, and j is the column number from the left toright of the keypad 600. Alternative functions or actions are mapped tokeys in the first array 602 and/or second array 612 in the accessiblekeypad mode.

At least some, possibly all, of the keys 604, 614 may be embossed withbraille or other raised indicator that may allow some users to identifythe keys by feel. In the shown examples, the keys 604 of the first array602 are numeric keys for inputting a number in a standard keypad mode inwhich a first set of actions is mapped to the keys of the keypad 104.The keys 614 of the second array 612 are action keys used to performparticular actions in standard keypad mode. The automated teller device100 performs an action in the first set of actions in response to inputreceived by a respective key of the keypad 108 in the standard keypadmode.

FIGS. 13 and 15 illustrate two example alternative key mappings that maybe used in an accessibility keypad mode in which a second set of actionsis mapped to the keys of the keypad 104, the second set of actions beingdifferent from the first set of actions in the standard keypad mode. Theactions of the second set of actions of the accessibility keypad modemay be dependent on context in some examples. The context may be, forexample, a current transaction or current screen of the session. Theautomated teller device 100 performs an action in the second set ofactions in response to input received by a respective key of the keypadin the accessibility keypad mode.

In FIG. 13, a first alternative key mapping for the accessibility keypadmode is show in which the keys 604 of the first array 602 are used foronscreen navigation. When onscreen navigation is enabled, an onscreenvisual indicator is used to indicate the currently selected onscreenbutton or element. The onscreen visual indicator may be visuallyrepresented as a hand, finger, arrow, pointer, cursor, caret or othersuitable visual indicator. Alternatively, the onscreen visual indicatormay be provided by highlighting or changing the color of the currentlyselected onscreen button or element. Navigating with the keys 604 of thefirst array 602, by depressing a respective key 604, selects anotheronscreen button in the currently displayed GUI screen in accordance withthe navigation direction associated with the selected key 604, if antheronscreen button is available. When the display 102 is a touchscreen,another onscreen button in the currently displayed GUI screen can alsobe selected by touching a designated touch area of the currentlydisplayed GUI screen for the onscreen button.

The second set of actions may comprise one or more of actions fornavigation action (or input) or selection action (or input) of thegraphical user interface. The actions for navigation action andselection action of the GUI may comprise scroll up, scroll down, scrollleft, scroll right and select. In the example of FIG. 13, the“up”/“scroll up” action is mapped to the key 604 in the [1,2] positionof the first array 602 (the “2” key), the “left”/“scroll left” action ismapped to the key 604 in the [2,1] position of the first array 602 (the“4” key), the “right”/“scroll right” action is mapped to the key 604 inthe [2,3] position of the first array 602 (the “6” key), and the“down”/“scroll down” action is mapped to the key 604 in the [3,2]position of the first array 602 (the “8” key). In the example of FIG.13, the action for selecting an option selected with an onscreenindicator is mapped to the key 604 in the [2, 2] position of the firstarray 602 (the “5” key).

The second set of actions may also comprise one or more of ending thesession, returning to a previous page in the session, selecting anoption selected with an onscreen indicator, or reproducing audioinstructions for the accessibility keypad mode. In the example of FIG.13, the actions of the ending the session, returning to a previous pagein the session, selecting an option selected with an onscreen indicator,and reproducing audio instructions for the accessibility keypad mode aremapped to keys of the second array are mapped to keys 614 of the secondarray 612. In the example of FIG. 13, the action of ending the sessionis mapped to the key 614 in the [1,1] position of the second array 612,the action of returning to a previous page in the session is mapped tothe key 614 in the [2,1] position of the second array 612, the actionfor selecting an option selected with an onscreen indicator is mapped tothe key 612 in the [3,1] position of the second array 612, and theaction for reproducing audio instructions for the accessibility keypadmode is mapped to the key 612 in the [4,1] position of the second array612.

In FIG. 15, a second alternative key mapping for the accessibilitykeypad mode is show in which the keys 604 of the first array 602 areused for onscreen navigation and audio support. When audio support isenabled, audio is supplied via a headset jack of the automated tellerdevice 100 to a headset of a user insert into the headset inserted intothe headset jack of the automated teller device 100 via a headset plug.The audio support comprises audio reproduction that may describe thecurrently displayed GUI screen, confirm selections/inputs received bythe automated teller device 100, and confirm the currently selectedonscreen button/item. The GUI screens may also be adapted to includetext and/or graphics to confirm previous selections/inputs received bythe automated teller device 100 and the current, requested or requiredinformation, the current workflow/transaction and/or other relevant,context-sensitive information, thereby complementing the audio support.The second set of actions may comprise one or more of actions forcontrol of audio being reproduced, actions for control of volume of theaudio being reproduced, or actions for control of a rate of reproductionof the audio being reproduced. For example, audio may be repeated,skipped or paused. The volume of the audio may be increased ordecreased, and the speed of the audio may be increased or decreased. Theuser may also be given screen options associated with audio support,such as a “blank screen” so that no meaningful content is displayed onthe display 102 for the remaining of the session, only a logo, picture,text, or blank but no account or transaction information.

The actions for control of audio being reproduced may comprise one ormore of repeat audio, skip audio, or pause audio reproduction. Theactions of repeat audio, skip audio, and pause audio reproduction may bemapped to keys 604 of the first array 602. In the example of FIG. 15,the action of repeat audio is mapped to the key 604 in the [3,1]position of the first array 602 (the “7” key), action of skip audio ismapped to the key 604 in the [3,3] position of the first array 602 (the“9” key), and the action of pause audio reproduction is mapped to thekey 604 in the [4,2] position of the first array 602.

The actions for control of volume of the audio being reproduced maycomprise one or more of increase volume of the audio being reproduced ordecrease volume of the audio being reproduced. The actions of increasevolume of the audio being reproduced or decrease volume of the audiobeing reproduced may be mapped to keys 604 of the first array 602. Inthe example of FIG. 15, the action of increase volume of the audio beingreproduced is mapped to the key 604 in the [1,1] position of the firstarray 602 (the “1” key) and the action of decrease volume of the audiobeing reproduced is mapped to the key 604 in the [1,3] position of thefirst array 602 (the “3” key).

The actions for control of a rate of reproduction of the audio beingreproduced may comprise one or more of increase speed of audioreproduction or decrease speed of audio reproduction. The actions ofincrease speed of audio reproduction and decrease speed of audioreproduction may be mapped to keys of the first array 602. In theexample of FIG. 15, the action of increase speed of audio reproductionis mapped to the key 604 in the [4,3] position of the first array 602and the action of decrease speed of audio reproduction is mapped to thekey 604 in the [4,1] position of the first array 602.

At operation 408, the information from the first-party server 306including any accessibility options for the account(s) is received bythe automated teller device 100. At operation 410, the automated tellerdevice 100 automatically applies accessibility features on the automatedteller device 100 based on the retrieved accessibility options, if any.The display settings for the display 102, audio settings for thespeakers 108 and keypad settings of the keypad 104 are configured inaccordance with the retrieved accessibility options, if any.

At operation 412, a user interface screen is displayed on display 102 inaccordance with the accessibility options for the account. In someexamples, the user interface may be a welcome interface, such as thewelcome interface 700 shown in FIG. 7 or an authentication interface(also be referred to as the authentication code entry screen or PINentry screen), such as the authentication interface 800 of FIG. 8, ifthe authentication has not already been performed.

The welcome interface 700 includes a plurality of selectable options 702a-702 d (generally referred to as options 702), which may be selected toinitiate an action using the automated teller device 100. The options702 displayed at the welcome interface 700 may be a subset of allavailable actions that may be performed using the automated tellerdevice 100. In some examples, the options 702 displayed at the welcomeinterface 700 may depend on the capabilities of the automated tellerdevice 100 and/or the actions that are permissible for the account(s),which are determined based on the inserted access card as describedabove. For example, if the account is not managed by the first-partyservice provider, the options 702 may be more limited than if theaccount is managed by the first-party service provider that owns theautomated teller device 100. The provided options 702 may depend on thecapabilities of the automated teller device 100, for example whether theautomated teller device 100 is able to provide certain types of output(e.g., cash or foreign currency). The options 702 may also bedynamically modified based on the current state of the automated tellerdevice 100. For example, the automated device may normally be capable ofproviding a certain type of output (e.g., cash) but may be in a currentstate in which that capability is not available (e.g., the automatedteller device 100 has run out of cash).

The displayed selectable options 702 in FIG. 7 include an option 702 afor providing express physical output (e.g., express withdrawal ofcash), an option 702 b for providing physical output (e.g., regularwithdrawal of cash), an option 702 c for providing physical input (e.g.,deposit of cash and/or check), and an option 702 d for performing a datatransfer between first-party accounts. The welcome interface 700 alsoprovides a selectable option 704 for displaying more available actions.

The welcome interface 700 in this example also includes selectablegeneral options 710 a-710 c (generally referred to as general options710). The general options 710 may include options concerning generaloperation of the automated teller device 100, and may not be related toany specific action or workflow performed using the automated tellerdevice 100. In the shown embodiment of FIG. 7, the general options 710are provided in a lower portion 712 of the welcome interface 700, forexample, in bar, panel or frame at the bottom of the welcome interface700. The general options 710 in this example include an option 710 a forreturning to a previous interface in the sequence of interfaces, anoption 710 b for displaying an accessibility options interface, and anoption 710 c to cancel the current action (in this case, the exchange ofdata using physical input). In the shown embodiment of FIG. 7, theoption 710 a is displayed on the left side of the lower portion 712, theoption 710 b is displayed at the middle of the lower portion 712, andthe option 710 c is displayed on the right side of the lower portion712. Other locations for the general options 710 may be used. Thegeneral options 710 may each be provided at the same location over aplurality of interfaces during the session, which may help a user tomore easily find each of the general options 710. In particular, thelocation of the option 710 b may enable a user with limited mobilityand/or limited reach to more easily select the option 710 b fordisplaying the accessibility options interface.

The welcome interface 700 may also include a message 714. In the shownembodiment, the message is a greeting comprising the text “Welcome” andthe “What would you like to do first?” In some examples, the greeting714 may include non-sensitive customized information based on accountinformation, such as a name associated with the account. Such customizedinformation may be obtained via communication between the automatedteller device 100 and the first-party server 306. For example, suchinformation may be provided to the automated teller device 100 togetherwith identification of the account(s) associated with the access card.

The authentication interface 800 enables receipt of input of anauthentication code associated with the account. The authenticationinterface 800 provides an input field 802 for entry of an authenticationcode (e.g., PIN) associated with the account (e.g., as identified viathe inserted access card). When multiple accounts are associated withthe access card, the same authentication code may be used for all of theaccounts. In this sense, the authentication code may also be consideredto be an authentication code that has been set for the access card. Forexample, a user may use the keypad 104 of the automated teller device100 to provide input into the input field 802. The keypad 104 may alsoprovide the ability to backspace or cancel input. Other input mechanismsmay also be used. The authentication interface 800 provides aconfirmation button 804 to confirm entry of the authentication code. Theauthentication interface 800 also provides the general options 710 asdiscussed above. When the confirmation button 804 is selected, the inputinto the input field 802 is received by the automated teller device 100.In some examples, instead of selecting the confirmation button 804, theuser may use a physical button (e.g., a physical confirmation button or“OK” button, which may be part of the keypad 104) to confirm entry ofthe authentication code. Input using a physical confirmation button maybe interpreted to be selection of the confirmation button 804. It shouldbe generally understood that, in the present disclosure, selection ofany confirmation button may be alternatively input using a physicalconfirmation button, such as an “OK” button on the keypad.

Configuration of Accessibility Options

FIG. 5 is a flowchart of an example method 500 for operating anautomated teller device 100 in accordance with an example embodiment ofthe present disclosure. The method 500 may be performed by the automatedteller device 100, for example, by the processing unit 126. The method500 may be implemented during a session with the automated tellerdevice, for example, as a user interface sequence. The method 500 may beimplemented together with other methods discussed herein to provide asequence of interfaces to set and/or apply accessibility settings.

At operation 502, a user interface of the automated teller device 100 isprovided in accordance with a first set of accessibility options. Theprovision of the user interface of the automated teller device 100comprises displaying a first GUI screen in accordance with the first setof accessibility options and optionally providing audio support inaccordance with the first set of accessibility options. The first set ofaccessibility options may define that accessibility options aredisabled, that subset of accessibility options are enabled, or that allaccessibility options are enabled and the settings of any enabledaccessibility options (e.g., screen options, audio support/playbackoptions, etc.). The provision of the user interface of the automatedteller device 100 may comprise playing or reproducing audio inaccordance with audio support options of the first set of accessibilityoptions.

At operation 504, the processing unit 126 monitors for input to invokean accessibility options interface for configuring (e.g., setting orchanging) accessibility options. In response to receiving input toinvoke an accessibility options interface, processing proceeds tooperation 506 at which the accessibility options interface is displayed.

The accessibility options interface for configuring (e.g., setting orchanging) accessibility options may be invoked by selecting an optionfor displaying the accessibility options interface. In some examples, anoption for displaying the accessibility options interface may beprovided by each GUI screen. Each GUI screen may include the generaloptions toolbar 710 of the welcome interface 700 and the authenticationinterface 800 that includes an option 710 b for displaying theaccessibility options interface. In the shown examples, theaccessibility option 710 b is an onscreen button located in a horizontaltoolbar, such as the general options toolbar 710, which is located at abottom of each of the screens of the graphical user interface. Theonscreen button is defined by a predefined location on the horizontaltoolbar and may be identified by one or more representative icons and/ordescriptive text as shown in the example interfaces.

The accessibility options interface which, in some examples, may beinvoked at the start of a session either before or after an access cardis inserted into the card reader 112 via the cart slot 110 or before orafter another authentication device is coupled to the automated tellerdevice 100. In some examples, the GUI of the automated teller device 100may include a start interface 900 as shown in FIG. 9 before an accesscard is inserted into the card reader 112 via the cart slot 110 or otherauthentication device is coupled to the automated teller device 100. Asshown in FIG. 9, the start interface 900 includes an option 910 fordisplaying the accessibility the options screen before an access card isinserted into the card reader 112 via the cart slot 110 or beforeanother authentication device is coupled to the automated teller device100, and before any data is extracted from the access card or otherauthentication device. In the shown example, the accessibility option910 is an onscreen button similar to that described above.

At operation 506, the processing unit 126 causes the accessibilityoptions interface to be displayed on the display 102. FIG. 10 is anexample accessibility options interface 1000 in accordance with anexample embodiment of the present disclosure. The accessibility optionsinterface 1000 includes a prompt 1005 to insert a headset plug for anaudio experience, a Screen Options (“High Contrast Options”) button 1010for invoking a Screen Options interface for configuring the screencontrast and background displayed on the display 102, a “KeypadNavigation” button 1020 for enabling an accessibility keypad mode, a“Brightness & Font Size” button 1030 for invoking a Brightness & FontSize interface for configuring the screen brightness of the display 102and the Font Size/Text size of displayed text, and a back button 1040for returning to a previous interface screen. The back button 1040 maybe context-sensitive and may only be present when the accessibilityoptions interface 1000 is invoked from an interface other than the startinterface 900.

At operation 508, input to change one or more accessibility options isreceived by the processing unit 126 via the keypad 104 and/or display102 when the display is a touchscreen.

At operation 510, the user interface of the automated teller device 100is automatically updated in response to the received input to change oneor more accessibility options to provide a user interface of theautomated teller device 100 in accordance with a second set ofaccessibility options, thereby automatically applying the change(s). Thesecond set of accessibility options is dependent on the received inputto change one or more accessibility options. The provision of the userinterface of the automated teller device 100 comprises displaying asecond GUI screen in accordance with the second set of accessibilityoptions and optionally providing audio support in accordance with thesecond set of accessibility options. The second GUI screen may be thesame as the first GUI screen when the received input to change one ormore accessibility options changed only audio support options. Theprovision of the user interface of the automated teller device 100 maycomprise playing or reproducing audio in accordance with audio supportoptions of the second set of accessibility options, which may be thesame or different than the audio support options of the first set ofaccessibility options depending on whether the received input to changeone or more accessibility options changed any audio support options.

At operation 512, the processing unit 126 may prompt the user whether tosave the second set of accessibility options in response to adetermination that the second set of accessibility options is differentthan the first set of accessibility options (which may be, for example,that the accessibility options are disabled).

In response to input to save the second set of accessibility options,the processing proceeds to operation 514 at which the second set ofaccessibility options are stored. FIG. 22 illustrates a save preferencesinterface 2200 in accordance with one example embodiment of the presetdisclosure. The save preferences interface 2200 may be displayed at theend of a session or after making a change to the accessibly options,depending on the embodiment.

Storing the second set of accessibility options comprises sending thesecond set of accessibility options from the automated teller device 100to the backend server, for example, the first-party server 306 owned oroperated by the first-party service provider that owns or operates theautomated teller device 100. The first-party server 306, in response toreceiving the second set of accessibility options for the account,stores the second set of accessibility options in association with theaccount in an account database. When the first-party server 306determines that the authentication device is associated with the accountthat is managed by a third-party service provider, the first-partyserver 306 may further communicate with a service provider network tosending the second set of accessibility options to the third-partyservice provider which stores the second set of accessibility options inassociation with the account in an account database when received. Thesecond set of accessibility options, stored with the first-party server306 or third-party server 310, can be accessed by any automated tellerdevice 100 connected to the communication network 304 at the start of asession to automatically apply the second set of accessibility optionson the automated teller device 100.

Alternatively, rather than prompting the user for input, all changes tothe accessibility options may be automatically saved/stored.

In some examples, only one accessibility option may be changed at atime. To change multiple accessibility options, the method 500 isrepeated. In other examples, multiple accessibility options may bechanged at a time.

FIG. 11 is an example Brightness & Font Size interface 1100 inaccordance with an example embodiment of the present disclosure invokedby selecting the “Brightness & Font Size” button 1030″ of theaccessibility options interface 1000. The Brightness & Font Sizeinterface 1100 includes an interface 1120 for configuring the screenbrightness of the display 102 via a decrease/down button 1122 and anincrease/up button 1124. The Brightness & Font Size interface 1100 alsoincludes an interface 1130 for configuring the displayed text size via adecrease/down button 1132 and an increase/up button 1134. The Brightness& Font Size interface 1100 also includes a confirmation (“OK”) button1140 for confirming and accepting any changes, and a cancel button 1150for rejecting any changes. The Brightness & Font Size interface 1100also includes a horizontal toolbar 1110 including the back button 1040and a button 1115 for displaying the accessibility options interface1000.

FIG. 12A is an example Screen Options interface 1200 in accordance withan example embodiment of the present disclosure invoked by selecting theScreen Options (“High Contrast Options”) button 1010 of theaccessibility options interface 1000. The Screen Options interface 1200includes a plurality of selectable options 1210 a-1210 d (generallyreferred to as options 1210) which may be selected to set a screenoption. In the shown example, the screen options comprise comprisingtext (e.g., green text) and a background image, screens comprising whitetext and a black background, screens comprising black text and a whitebackground, and screens comprising yellow text and a black background.The currently selected screen option is shown by an onscreen indicator1205 which, in the shown example, is an arrow. In the example of FIG.12A, the currently selected screen option is text and a backgroundimage. FIG. 12B is an alternate example Screen Options interface 1200 inwhich the currently selected screen option is screens comprising yellowtext and a black background.

FIG. 13 is an example Keypad Navigation interface 1300 in accordancewith an example embodiment of the present disclosure invoked byselecting the “Keypad Navigation” button 1020 of the accessibilityoptions interface 1000. The Keypad Navigation interface 1300 isinformational only and illustrates a keypad mapping of the accessibilitykeypad mode. Selecting the “Keypad Navigation” button 1020 automaticallyenables the accessibility keypad mode for the automated teller device100. The Keypad Navigation interface 1300 may be complimented by audiodescribing the keys and associated actions of the key mapping of theaccessibility keypad mode, possibility with referential or relativedirectional cues or guides to assist persons with visual challenges(e.g., the right or scroll right button is located at the 3 o'clockrelative to the keypad, etc.)

FIG. 14 is an example Audio Language Select interface 1400 in accordancewith an example embodiment of the present disclosure. The Audio LanguageSelect interface 1400 may be displayed when a headset plug is insertedinto the headset jack of the automated teller device 100, for example,in response to the prompt 1005 of the accessibility options interface1000 when an audio language has not been previously selected and storedin the accessibility options of the account. In some examples, audiosupport may be enabled at any time by inserting the headset jack of theautomated teller device 100. The Audio Language Select interface 1400 isoptional and may be omitted in other examples in which only one languageis supported or an audio language has been previously selected andstored in the accessibility options of the account. FIG. 14 shows anexample in which multiple languages are supported, namely English andFrench (Français), and two language buttons 1410 and 1420 are providedto select between English and French, respectively.

A keypad navigation for audio interface may be displayed when audiosupport is enabled, possibly whenever audio support is enabled. Thekeypad navigation for audio interface may be displayed directly inresponse to detection that a headset plug has been inserted into theheadset jack of the automated teller device 100 when the Audio LanguageSelect interface 1400 is not displayed.

Alternatively, the keypad navigation for audio interface may bedisplayed after a language is selected from the Audio Language Selectinterface 1400 via one of the onscreen buttons. FIG. 15 is an exampleKeypad Navigation for Audio interface 1500 in accordance with an exampleembodiment of the present disclosure. The Keypad Navigation for Audiointerface 1500 is informational only and illustrates a keypad mapping ofthe accessibility keypad mode when audio support is enabled. The KeypadNavigation for Audio interface 1500 may be complimented by audiodescribing the keys and associated actions of the key mapping of theaccessibility keypad mode, possibility with referential or relativedirectional cues or guides to assist persons with visual challenges(e.g., the right or scroll right button is located at the 3 o'clockrelative to the keypad, etc.)

FIG. 16 is an example Saved Preferences for Audio interface 1600 inaccordance with an example embodiment of the present disclosure. TheSaved Preferences for Audio interface 1600 may be displayed after theKeypad Navigation for Audio interface 1500 when previously selected andstored audio options exist in the accessibility options of the account.The Saved Preferences for Audio interface 1600 displays the savedpreferences for audio 1605 which, in the shown example, include a screenoption, an audio volume, and an audio speed. Other audio options may beprovided in other examples. The Saved Preferences for Audio interface1600 also includes a confirmation button 1610 to confirm and accept thesaved preferences and a change button 1620 to change the savedpreferences. When the change button 1620, the user is able to change thesaved preferences via corresponding input or interfaces which areprovided to the user.

When no audio options exist in the accessibility options of the account,for example because audio support has not been previously enabled, aScreen Options for Audio interface 1700 is displayed, an exampleembodiment of which is shown in FIG. 17A. The Screen Options for Audiointerface 1700 is similar to the example Screen Options interface 1200except that a button option 1705 for a blank screen to be displayedduring audio is provided. In the example of FIG. 17A, the currentlyselected screen option is text and a background image. FIG. 17B is analternate example Screen Options for Audio interface 1700 in which thecurrently selected screen option is screens comprising yellow text and ablack background. FIG. 18 is an example blank screen in accordance withan example embodiment of the present disclosure. The blank screen maydisplay a background image and/or a logo but no information or onscreenbuttons other than the horizontal toolbar 1110 which, in the shownexample, includes an option button 1705 to change the audio languageinstead of a back button 1040.

Next, an interface prompting the user for input whether to announce fullnavigation and control instructions is displayed. FIG. 19 is an exampleAnnounce Navigation and Control Instructions interface 1900 inaccordance with an example embodiment of the present disclosureincluding a confirmation button 1910 to confirm and start announcementof the navigation and control instructions and a skip button 1920 toskip the announcement.

Next, an interface prompting the user for input whether to announce newfeatures of the automated teller device 100 is displayed. This interfaceis optional and is only displayed when new features are available. FIG.20 is an example Announce New Features interface 2000 in accordance withan example embodiment of the present disclosure including a confirmationbutton 2010 to confirm and start announcement of the new features and askip button 2020 to skip the announcement.

FIG. 21 is an example insert card interface 2100 in accordance with anexample embodiment of the present disclosure. The insert card interface2100 is informationally only and prompts the user to insert an accesscard or other authentication device. The insert card interface 2100 isoptional and is only displayed when the accessibility options interface1000 is invoked from the start interface 900 before an access card orother authentication device is in communication with the automatedteller device.

FIG. 22 is an example save preferences interface 2200 in accordance withan example embodiment of the present disclosure. The save preferencesinterface 2200 also includes a confirmation (“OK”) button 2220 forconfirming and accepting changes to the accessibly options, and a cancel(“No Thanks”) button 2210 for rejecting any changes to the accessiblyoptions. The save preferences interface 2200 may be displayed at the endof a session or after making a change to the accessibly options. In theshown example, the save preferences interface 2200 may be displayed atthe end of a session and so includes a “return card” button 2230 as analternative to the cancel button 2210.

General

The steps and/or operations in the flowcharts and drawings describedherein are for purposes of example only. There may be many variations tothese steps and/or operations without departing from the teachings ofthe present disclosure. For instance, the steps may be performed in adiffering order, or steps may be added, deleted, or modified.

The coding of software for carrying out the above-described methodsdescribed is within the scope of a person of ordinary skill in the arthaving regard to the present disclosure. Machine readable codeexecutable by one or more processors of one or more respective devicesto perform the above-described method may be stored in amachine-readable medium such as the memory of the data manager. Theterms “software” and “firmware” are interchangeable within the presentdisclosure and comprise any computer program stored in memory forexecution by a processor, comprising RAM memory, ROM memory, erasableprogrammable ROM (EPROM) memory, electrically EPROM (EEPROM) memory, andnon-volatile RAM (NVRAM) memory. The above memory types are exampleonly, and are thus not limiting as to the types of memory usable forstorage of a computer program.

Although the present disclosure is described at least in part in termsof methods, a person of ordinary skill in the art will understand thatthe present disclosure is also directed to the various elements forperforming at least some of the aspects and features of the describedmethods, be it by way of hardware, software or a combination thereof.Accordingly, the technical solution of the present disclosure may beembodied in a non-volatile or non-transitory machine-readable mediumhaving stored thereon executable instructions tangibly stored thereonthat enable a processing device to execute examples of the methodsdisclosed herein.

All values and sub-ranges within disclosed ranges are also disclosed.Also, although the systems, devices and processes disclosed and shownherein may comprise a specific plurality of elements/components, thesystems, devices and assemblies may be modified to comprise additionalor fewer of such elements/components. For example, although any of theelements/components disclosed may be referenced as being singular, theembodiments disclosed herein may be modified to comprise a plurality ofsuch elements/components.

Although several example embodiments are described herein,modifications, adaptations, and other implementations are possible. Forexample, substitutions, additions, or modifications may be made to theelements illustrated in the drawings, and the example methods describedherein may be modified by substituting, reordering, or adding steps tothe disclosed methods.

Features from one or more of the above-described embodiments may beselected to create alternate embodiments comprised of a subcombinationof features which may not be explicitly described above. In addition,features from one or more of the above-described embodiments may beselected and combined to create alternate embodiments comprised of acombination of features which may not be explicitly described above.Features suitable for such combinations and subcombinations would bereadily apparent to persons skilled in the art upon review of thepresent application as a whole.

In addition, numerous specific details are set forth to provide athorough understanding of the example embodiments described herein. Itwill, however, be understood by those of ordinary skill in the art thatthe example embodiments described herein may be practiced without thesespecific details.

Furthermore, well-known methods, procedures, and elements have not beendescribed in detail so as not to obscure the example embodimentsdescribed herein. The subject matter described herein and in the recitedclaims intends to cover and embrace all suitable changes in technology.

The term “processor” may comprise any programmable system comprisingsystems using microprocessors, nanoprocessors or the like, reducedinstruction set circuits (RISC), ASICs, logic circuits, and any othercircuit or processor capable of executing the functions describedherein. The term “database” may refer to either a body of data, arelational database management system (RDBMS), or to both. As usedherein, a database may comprise any collection of data comprisinghierarchical databases, relational databases, flat file databases,object-relational databases, object-oriented databases, and any otherstructured collection of records or data that is stored in a computersystem. The above examples are example only, and thus are not intendedto limit in any way the definition and/or meaning of the terms“processor” or “database”.

The present disclosure may be embodied in other specific forms withoutdeparting from the subject matter of the claims. The described exampleembodiments are to be considered in all respects as being onlyillustrative and not restrictive. The present disclosure intends tocover and embrace all suitable changes in technology. The scope of thepresent disclosure is, therefore, described by the appended claimsrather than by the foregoing description. The scope of the claims shouldnot be limited by the embodiments set forth in the examples, but shouldbe given the broadest interpretation consistent with the description asa whole.

1. An automated teller machine (ATM), comprising: a processor; a speakercoupled to the processor; a communication interface coupled to theprocessor; a display coupled to the processor and providing a graphicaluser interface; and an ATM keypad comprising a plurality of keys coupledto the processor; wherein the processor is configured to: in response toa setting to disable an accessibility keypad mode, operate a session ina standard keypad mode in which a first set of actions is mapped to thekeys of the keypad; in response to a setting to enable the accessibilitykeypad mode, operate the session in the accessibility keypad mode inwhich a second set of actions is mapped to the keys of the keypad,wherein the second set of actions is different from the first set ofactions, wherein the second set of actions comprises actions fornavigation and input selection of the graphical user interface, actionsfor control of audio being reproduced, actions for control of volume ofthe audio being reproduced, actions for control of a rate ofreproduction of the audio being reproduced, an action for ending thesession, an action for returning to a previous page in the session, anaction for selecting an option selected with an onscreen indicator, andan action for reproducing audio instructions for the accessibilitykeypad mode; in the standard keypad mode, perform an action in the firstset of actions in response to input received by a respective key of thekeypad; and in the accessibility keypad mode, perform an action in thesecond set of actions in response to input received by a respective keyof the keypad.
 2. The ATM of claim 1, wherein the actions for navigationand input selection of the graphical user interface comprise scroll up,scroll down, scroll left, scroll right and select.
 3. The ATM of claim1, wherein the actions for control of audio being reproduced comprisesone or more of repeat audio, skip audio, or pause audio reproduction. 4.The ATM of claim 1, wherein the actions for control of volume of theaudio being reproduced increase volume of the audio being reproduced anddecrease volume of the audio being reproduced.
 5. The ATM of claim 1,wherein the actions for control of a rate of reproduction of the audiobeing reproduced comprises one or more of increase speed of audioreproduction or decrease speed of audio reproduction.
 6. The ATM ofclaim 1, wherein the actions of the second set of actions of theaccessibility keypad mode are dependent on context.
 7. The ATM of claim6, wherein the context is a current transaction or current screen of thesession.
 8. The ATM of claim 1, wherein the plurality of keys comprisinga first array of keys of a first type and a second array of keys of asecond type.
 9. The ATM of claim 8, wherein the actions for navigationand input selection of the graphical user interface, the actions forcontrol of audio being reproduced, the actions for control of volume ofthe audio being reproduced, and the actions for control of a rate ofreproduction of the audio being reproduced are mapped to keys of thefirst array of keys of the ATM keypad; and wherein the action for endingthe session, the action for returning to a previous page in the session,the action for selecting an option selected with an onscreen indicator,and the action for reproducing audio instructions for the accessibilitykeypad mode are mapped to keys of the second array of keys of the ATMkeypad.
 10. The ATM of claim 9, wherein the keys of the first array arearranged in a 4×3 array of rows and columns and the keys of the secondarray are arranged in a 4×1 array of rows and columns.
 11. The ATM ofclaim 1, wherein the processor is configured to: extract data from anauthentication device in communication with the ATM; send a signalincluding the data extracted from the authentication device to a servervia a communication interface of the ATM; and in response to receipt ofa response signal from the server via the communication interface of theATM, the response signal providing information identifying an accountassociated with the authentication device and accessibility options forthe account including a setting whether the accessibility keypad mode isenabled or disabled, automatically apply the accessibility options onthe ATM.
 12. The ATM of claim 11, wherein the accessibility optionscomprise an audio reproduction option for enabling reproduction of audioassociated with screens of the graphical user interface and theaccessibility keypad mode option for enabling the accessibility keypadmode.
 13. The ATM of claim 12, wherein the accessibility options furthercomprise a display option for the graphical user interface, wherein thedisplay option for the graphical user interface is selected from thegroup consisting of a blank screen, screens comprising text and abackground image, screens comprising white text and a black background,screens comprising black text and a white background, or screenscomprising yellow text and a black background.
 14. The ATM of claim 13,wherein the accessibility options further comprise a brightness optionfor the graphical user interface and a text size option for thegraphical user interface.
 15. The ATM of claim 1, wherein the displaycomprises a touchscreen, wherein the graphical user interface displayedon the touchscreen is configured to receive navigation and selectioninput from both the touchscreen and the keypad.
 16. The ATM of claim 1,wherein the graphical user interface comprises a plurality ofinterconnected screens, wherein each of the interconnected screenscomprises an accessibility button for invoking an accessibility optionsinterface for configuring the accessibility options.
 17. The ATM ofclaim 16, wherein the accessibility option is provided by an onscreenbutton located in a horizontal toolbar located at a bottom of each ofthe interconnected screens of the graphical user interface.
 18. The ATMof claim 1, wherein the setting to disable an accessibility keypad modeor the setting to enable the accessibility keypad mode is provided byinput received by the ATM.
 19. An automated teller machine (ATM),comprising: a processor; a speaker coupled to the processor; acommunication interface coupled to the processor; a display coupled tothe processor and providing a graphical user interface; and an ATMkeypad comprising a plurality of keys coupled to the processor; whereinthe processor is configured to: in a standard keypad mode in which afirst set of actions is mapped to the keys of the keypad, perform anaction in the first set of actions in response to input received by arespective key of the keypad; and in an accessibility keypad mode inwhich a second set of actions is mapped to the keys of the keypad,perform an action in the second set of actions in response to inputreceived by a respective key of the keypad, wherein the second set ofactions is different from the first set of actions, wherein the secondset of actions comprises actions for navigation and input selection ofthe graphical user interface, actions for control of audio beingreproduced, actions for control of volume of the audio being reproduced,actions for control of a rate of reproduction of the audio beingreproduced, an action for ending a current session, an action forreturning to a previous page in the current session, an action forselecting an option selected with an onscreen indicator, and an actionfor reproducing audio instructions for the accessibility keypad mode.20. The ATM of claim 19, wherein the ATM is operated in the standardkeypad mode or accessibility keypad mode in response to a setting todisable an accessibility keypad mode or a setting to enable theaccessibility keypad mode, respectively, wherein the setting to disablean accessibility keypad mode or the setting to enable the accessibilitykeypad mode is provided by input received by the ATM or provided by aresponse signal from a server via the communication interface of theATM.
 21. An automated teller machine (ATM), comprising: a processor; aspeaker coupled to the processor; a communication interface coupled tothe processor; a display coupled to the processor and providing agraphical user interface; and an ATM keypad comprising a plurality ofkeys coupled to the processor, the plurality of keys comprising a firstarray of keys of a first type and a second array of keys of a secondtype, wherein the keys of the first array are arranged in a 4×3 array ofrows and columns and the keys of the second array are arranged in a 4×1array of rows and columns; wherein the processor is configured to: inresponse to a setting to disable an accessibility keypad mode, operatein a standard keypad mode in which a first set of actions is mapped tothe keys of the keypad; in response to a setting to enable theaccessibility keypad mode, operate in the accessibility keypad mode inwhich a second set of actions is mapped to the keys of the keypad,wherein the second set of actions is different from the first set ofactions, wherein the second set of actions comprises actions fornavigation and input selection of the graphical user interface, actionsfor control of audio being reproduced, actions for control of volume ofthe audio being reproduced, and actions for control of a rate ofreproduction of the audio being reproduced which are mapped to keys ofthe first array of keys of the ATM keypad which are mapped to keys ofthe first array of keys of the ATM keypad; in the standard keypad mode,perform an action in the first set of actions in response to inputreceived by a respective key of the keypad; and in the accessibilitykeypad mode, perform an action in the second set of actions in responseto input received by a respective key of the keypad.
 22. The ATM ofclaim 21, wherein the position of each key in the first array is denotedby a position [i, j], wherein i is the row number from top to bottom ofthe ATM keypad, and j is the column number from left to right of thefirst array of the ATM keypad; wherein the navigation and inputselection actions comprise scroll up, scroll down, scroll left, scrollright and select for selecting an option selected with an onscreenindicator, wherein the scroll up action is mapped to the key in the[1,2] position of the first array, the scroll left action is mapped tothe key in the [2,1] position of the first array, the scroll rightaction is mapped to the key in the [2,3] position of the first array,the scroll down action is mapped to the key in the [3,2] position of thefirst array, and the select action is mapped to the key in the [2, 2]position of the first array.
 23. The ATM of claim 21, wherein theactions for control of audio being reproduced comprises one or more ofrepeat audio, skip audio, or pause audio reproduction.
 24. The ATM ofclaim 21, wherein the actions for control of volume of the audio beingreproduced increase volume of the audio being reproduced and decreasevolume of the audio being reproduced.
 25. The ATM of claim 21, whereinthe actions for control of a rate of reproduction of the audio beingreproduced comprises one or more of increase speed of audio reproductionor decrease speed of audio reproduction.
 26. The ATM of claim 21,wherein the actions of the second set of actions of the accessibilitykeypad mode are dependent on context.
 27. The ATM of claim 26, whereinthe context is a current transaction or current screen.
 28. The ATM ofclaim 21, wherein the second set of actions comprises an action forending a current session, an action for returning to a previous screen,an action for selecting and continuing to a next screen, and an actionfor reproducing audio instructions for the accessibility keypad mode.29. The ATM of claim 28, wherein the action for ending a currentsession, the action for returning to a previous screen, the action forselecting and continuing to a next screen, and the action forreproducing audio instructions for the accessibility keypad mode aremapped to keys of the second array of keys of the ATM keypad.
 30. TheATM of claim 21, wherein the processor is configured to: extract datafrom an authentication device in communication with the ATM; send asignal including the data extracted from the authentication device to aserver via a communication interface of the ATM; and in response toreceipt of a response signal from the server via the communicationinterface of the ATM, the response signal providing informationidentifying an account associated with the authentication device andaccessibility options for the account including a setting whether theaccessibility keypad mode is enabled or disabled, automatically applythe accessibility options on the ATM.
 31. The ATM of claim 30, whereinthe accessibility options comprise an audio reproduction option forenabling reproduction of audio associated with screens of the graphicaluser interface and the accessibility keypad mode option for enabling theaccessibility keypad mode.
 32. The ATM of claim 31, wherein theaccessibility options further comprise a display option for thegraphical user interface, wherein the display option for the graphicaluser interface is selected from the group consisting of a blank screen,screens comprising text and a background image, screens comprising whitetext and a black background, screens comprising black text and a whitebackground, or screens comprising yellow text and a black background.33. The ATM of claim 31, wherein the accessibility options furthercomprise a brightness option for the graphical user interface and a textsize option for the graphical user interface.
 34. The ATM of claim 21,wherein the display comprises a touchscreen, wherein the graphical userinterface displayed on the touchscreen is configured to receivenavigation and selection input from both the touchscreen and the keypad.35. The ATM of claim 21, wherein the graphical user interface comprisesa plurality of interconnected screens, wherein each of theinterconnected screens comprises an accessibility button for invoking anaccessibility options interface for configuring the accessibilityoptions.
 36. The ATM of claim 35, wherein the accessibility option isprovided by an onscreen button located in a horizontal toolbar locatedat a bottom of each of the interconnected screens of the graphical userinterface.
 37. The ATM of claim 31, wherein the setting to disable anaccessibility keypad mode or the setting to enable the accessibilitykeypad mode is provided by input received by the ATM.
 38. An automatedteller machine (ATM), comprising: a processor; a speaker coupled to theprocessor; a communication interface coupled to the processor; a displaycoupled to the processor and providing a graphical user interface; andan ATM keypad comprising a plurality of keys coupled to the processor,the plurality of keys comprising a first array of keys of a first typeand a second array of keys of a second type, wherein the keys of thefirst array are arranged in a 4×3 array of rows and columns and the keysof the second array are arranged in a 4×1 array of rows and columns;wherein the processor is configured to: in a standard keypad mode inwhich a first set of actions is mapped to the keys of the keypad,perform an action in the first set of actions in response to inputreceived by a respective key of the keypad; and in an accessibilitykeypad mode in which a second set of actions is mapped to the keys ofthe keypad, perform an action in the second set of actions in responseto input received by a respective key of the keypad, wherein the secondset of actions is different from the first set of actions, wherein thesecond set of actions comprises actions for navigation and inputselection of the graphical user interface, actions for control of audiobeing reproduced, actions for control of volume of the audio beingreproduced, and actions for control of a rate of reproduction of theaudio being reproduced which are mapped to keys of the first array ofkeys of the ATM keypad which are mapped to keys of the first array ofkeys of the ATM keypad.
 39. The ATM of claim 38, wherein the ATM isoperated in the standard keypad mode or accessibility keypad mode inresponse to a setting to disable an accessibility keypad mode or asetting to enable the accessibility keypad mode, respectively, whereinthe setting to disable an accessibility keypad mode or the setting toenable the accessibility keypad mode is provided by input received bythe ATM.
 40. The ATM of claim 38, wherein the ATM is operated in thestandard keypad mode or accessibility keypad mode in response to asetting to disable an accessibility keypad mode or a setting to enablethe accessibility keypad mode, respectively, wherein the setting todisable an accessibility keypad mode or the setting to enable theaccessibility keypad mode is provided by a response signal from a servervia the communication interface of the ATM.